====== Case Study: Thermal Comfort======
{{ :examples:thermal_pic.png |A simple test layout to analyze an areas microclimate and thermal comfort.}}\\
//Test model 200 x 190 x 30 //
The Thermal Comfort Case Study is a small (200 x 190 x 30 Grids) model that was used to analyze minimal invasive climate adaptation strategies to mitigate urban excess heat.
==== Download Model Files ====
This is a simple example containing the .INX file and the .SIM file used to run the Case Study simulation.
^ Link ^Content ^Comments ^
| [[http://envi-met.info/public/cases/thermalComfort/thermalComfort_modelfiles.zip|ThermalComfort_modelfiles.zip]] | Model Files (Area Input File .INX plus Configuration .SIM for the Plan and Optimized Plan)| Please extract into a folder in your workspace directory. [[filereference:output:atmosphere|→ View File Reference]]|
==== Download Sample Results Plan ====
The model results below have been calculate using the full version of ENVI-met (BUSINESS/SCIENCE, V5.5.). The simulation time with an Intel Core i5-3470 with 4 cores, a maximum clock speed of 3.6 GHz and 16 GB of RAM is approximatly 114 hours.
^ Link ^Content ^Comments ^
|[[http://envi-met.info/public/cases/thermalComfort/Plan2050/atmosphere.zip|Atmosphere.zip]] |Atmosphere Data (3D |Extract to disc and View with LEONARDO |
|[[http://envi-met.info/public/cases/thermalComfort/Plan2050/buildings.zip|Buildings.zip]] |Building Data (Static & Dynamic) (3D Facade) |Extract to disc and View with LEONARDO as Facade Data in 3D|
|[[http://envi-met.info/public/cases/thermalComfort/Plan2050/radiation.zip|Radiation.zip]] | Radiation Data (3D) |Extract to disc and view with LEONARDO as 2D or 3D |
|[[http://envi-met.info/public/cases/thermalComfort/Plan2050/soil.zip|Soil.zip]] | Soil Data (3D) |Extract to disc and view with LEONARDO as 2D or 3D Map|
|[[http://envi-met.info/public/cases/thermalComfort/Plan2050/solaraccess.zip|Solaraccess.zip]] | Solar Access Data (misc) |Extract to disc and view with LEONARDO as 2D (_SA_ files) or 3D Facade Data (_SAFAC_ files) or use Open...to load Solargrams (.SI files) |
|[[http://envi-met.info/public/cases/thermalComfort/Plan2050/surface.zip|Surface.zip]] | Surface and Surface Flux Data (2D) |Extract to disc and view with LEONARDO as 2D Map|
|[[http://envi-met.info/public/cases/thermalComfort/Plan2050/vegetation.zip|Vegetation.zip]] | Vegetation Data (3D) |Extract to disc and view with LEONARDO as 2D or 3D Map|
==== Download Sample Results Optimized Plan ====
The model results below have been calculate using the full version of ENVI-met (BUSINESS/SCIENCE, V5.5.). The simulation time with an Intel Core i5-3470 with 4 cores, a maximum clock speed of 3.6 GHz and 16 GB of RAM is approximatly 114 hours.
^ Link ^Content ^Comments ^
|[[http://envi-met.info/public/cases/thermalComfort/Opt2050/atmosphere.zip|Atmosphere.zip]] |Atmosphere Data (3D |Extract to disc and View with LEONARDO |
|[[http://envi-met.info/public/cases/thermalComfort/Opt2050/buildings.zip|Buildings.zip]] |Building Data (Static & Dynamic) (3D Facade) |Extract to disc and View with LEONARDO as Facade Data in 3D|
|[[http://envi-met.info/public/cases/thermalComfort/Opt2050/radiation.zip|Radiation.zip]] | Radiation Data (3D) |Extract to disc and view with LEONARDO as 2D or 3D|
|[[http://envi-met.info/public/cases/thermalComfort/Opt2050/soil.zip|Soil.zip]] | Soil Data (3D) |Extract to disc and view with LEONARDO as 2D or 3D Map|
|[[http://envi-met.info/public/cases/thermalComfort/Opt2050/solaraccess.zip|Solaraccess.zip]] | Solar Access Data (misc) |Extract to disc and view with LEONARDO as 2D (_SA_ files) or 3D Facade Data (_SAFAC_ files) or use Open...to load Solargrams (.SI files) |
|[[http://envi-met.info/public/cases/thermalComfort/Opt2050/surface.zip|Surface.zip]] | Surface and Surface Flux Data (2D) |Extract to disc and view with LEONARDO as 2D Map|
|[[http://envi-met.info/public/cases/thermalComfort/Opt2050/vegetation.zip|Vegetation.zip]] | Vegetation Data (3D) |Extract to disc and view with LEONARDO as 2D or 3D Map|